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Author [ Title(Desc)] Type Year
D
Li, X. , & Renksizbulut, M. . (1991). Droplet ignition with variable properties and distinct binary diffusion coefficients. AIAA journal, 29(7), 1131-1135.
Xianguo, L. , & TANKIN0, R. I. C. H. A. R. D. S. . (1987). Droplet size distribution: A derivation of a Nukiyama-Tanasawa type distribution function. Combustion Science and Technology, 56(1-3), 65-76. Taylor & Francis.
Li, X. , & Li, M. . (2003). Droplet size distribution in sprays based on maximization of entropy generation. Entropy, 5(5), 417-431. Molecular Diversity Preservation International.
Renksizbulut, M. , Bussmann, M. , & Li, X. . (1992). A droplet vaporization model for spray calculations. Particle & particle systems characterization, 9(1‐4), 59-65. Wiley Online Library.
E
Zamel, N. , & Li, X. . (2011). Effect of contaminants on polymer electrolyte membrane fuel cells. Progress in Energy and Combustion Science, 37(3), 292-329. Elsevier.
Park, J. , & Li, X. . (2006). Effect of flow and temperature distribution on the performance of a PEM fuel cell stack. Journal of Power Sources, 162(1), 444-459. Elsevier.
Du, Q. , & Li, X. . (2005). Effect of gas stream swirls on the instability of viscous annular liquid jets. Acta mechanica, 176(1), 61-81. Springer.
Zamel, N. , Li, X. , Becker, J. , & Wiegmann, A. . (2011). Effect of liquid water on transport properties of the gas diffusion layer of polymer electrolyte membrane fuel cells. International Journal of Hydrogen Energy, 36(9), 5466-5478. Elsevier.
Jiao, K. , & Li, X. . (2010). Effect of surface dynamic wettability in proton exchange membrane fuel cells. international journal of hydrogen energy, 35(17), 9095-9103. Elsevier.
Alaefour, I. E. , Jiao, K. , Karimi, G. , & Li, X. . (2012). The Effect of the Air Stoichiometry on Dynamic Behavior of Local Current Density in Proton Exchange Membrane Fuel Cell. ECS Transactions, 42(1), 131-142. The Electrochemical Society.
Mondal, B. , & Li, X. . (2010). Effect of volumetric radiation on natural convection in a square cavity using lattice Boltzmann method with non-uniform lattices. International Journal of Heat and Mass Transfer, 53(21), 4935-4948. Elsevier.
Qin, Y. , Li, X. , Du, Q. , Yin, Y. , & Jiao, K. . (2013). Effect of wettability on water removal from the gas diffusion layer surface in a novel proton exchange membrane fuel cell flow channel. international journal of hydrogen energy, 38(29), 12879-12885. Elsevier.
Qin, Y. , Li, X. , Jiao, K. , Du, Q. , & Yin, Y. . (2014). Effective removal and transport of water in a PEM fuel cell flow channel having a hydrophilic plate. Applied Energy, 113, 116-126. Elsevier.
Das, P. K. , Li, X. , & Liu, Z. - S. . (2010). Effective transport coefficients in PEM fuel cell catalyst and gas diffusion layers: beyond Bruggeman approximation. Applied Energy, 87(9), 2785-2796. Elsevier.
Zamel, N. , & Li, X. . (2013). Effective transport properties for polymer electrolyte membrane fuel cells–with a focus on the gas diffusion layer. Progress in energy and combustion science, 39(1), 111-146. Elsevier.
Lee, Y. , Kim, B. , Kim, Y. , & Li, X. . (2011). Effects of a microporous layer on the performance degradation of proton exchange membrane fuel cells through repetitive freezing. Journal of Power Sources, 196(4), 1940-1947. Elsevier.
Das, P. K. , Li, X. , Xie, Z. , & Liu, Z. ‐S. . (2011). Effects of catalyst layer structure and wettability on liquid water transport in polymer electrolyte membrane fuel cell. International Journal of Energy Research, 35(15), 1325-1339. Wiley Online Library.
Jiao, K. , & Li, X. . (2009). Effects of various operating and initial conditions on cold start performance of polymer electrolyte membrane fuel cells. International Journal of Hydrogen Energy, 34(19), 8171-8184. Elsevier.
Jiao, K. , Li, X. , Yin, Y. , Zhou, Y. , Yu, S. , & Du, Q. . (2012). Effects of various operating conditions on the hydrogen absorption processes in a metal hydride tank. Applied Energy, 94, 257-269. Elsevier.
Saha, A. Ashish, Mitra, S. K. , & Li, X. . (2007). Electroosmotic effect on flows in a serpentine microchannel with varying zeta potential. Journal of power sources, 164(1), 154-165. Elsevier.

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